US1586737A

US1586737A - Method of making molded-rubber handwheels

Info

Publication number: US1586737A
Application number: US10153A
Authority: US
Inventors: Harvey D Geyer
Original assignee: Inland Manufacturing Co
Current assignee: Inland Manufacturing Co
Priority date: 1925-02-18
Filing date: 1925-02-18
Publication date: 1926-06-01
Anticipated expiration: 1943-06-01

Description

June 'l 1.926.

` 1,586,73 7 H. D. GEYER` METHOD OF MAKING MOLDED RUBBER HANDWHEELS Filed Feb. 18, .1925

4 Sheets-Sheet l June \1 1926. 1,586,73 7

H. D. GEYER METHOD OF MIXKING MOLDED RUBBER HANDWHEELS Filed Feb. 18, 1925 4 Sheets-Sheet 2 y HHIIH HMM atto: new

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H. D. GEYER METHOD OF MAKING MOLDED RUBBER HANDWHEELS 4 Sheets-Sheet 4 Filed Feb. v 18, 1925 gnou/Ho@ Patented June 1, 1926.

UNITED STATES PATENT oFElcE.

HARVEY D. GEYER, OF DAYTON, OHIO, ASSIGNOR TO THE INLAND MANUFACTURING COMPANYK, OF DAYTON, OHIO, A CORPORATION lOIE* DELAWARE.

METHOD OF MAKING MOLDED-RUBBER HANDWHEELS.

`Application ledFebruary 18,1925. Serial No. 10,153.

This invention relates to improvements in molded rubber handwheel rims, or similar articles, and to improved methods for mak ing the same.

An object of this invention is to provide an improved method of making a reinforced rubber annulus whereby a better article is produced and economies of manufacture effected.

Heretofore "reinforced rims have -been made by inserting a flexible reinforcing element in the unvulcanized rim material before the same `has been shaped in the form of a ring, the flexibility .of the reinforcing element permitting the easy bending of the rim material to the desired ring form. This invention, however, contemplates vproviding a preformed ring-shaped reinforcing element which is sufficiently rigid to be selfsustaining and to provide suficient support for the unvulcanized rim material after it is laid thereon to hold the same in substantially ring form until it is laid within the vulcanizing mold. Preferably this reinforc,

ing element is a steel wire hoop, having the joint y therein welded, whereby sufficient rigidity for the above mentioned purposes is obtained and l in addition a yieldability is obtained to give greatly increased strength of the finished rim under shock. Another advantage of this method of laying the rubber material on a ready formed ring-shaped reinforcing` element lies inthe fact that the spider arms may be easily secured directly to the reinforcing element before the rubber islaid thereon and a much stronger finished wheel thus obtained.

Another object of this invention is to provide a method of extruding a flexible length of unvulcanized rubber, suitable for making rims by the above method, by cutting a continuous slit therein during extrusion.

Another object is to provide an improved method of layingv ,on-5a rubber core stock a casing of rubber of a higher grade or different color from that of the core stock.

Another object is to provide an improved method of molding a rim having corrugations or indentations therein by vulcanizlng a rim of uniform section in a die mold under a high lnternal pressure,

Further objects and advantages of the present invention will be aparent from the following descrlption, reference being had to the accompanying drawings, wherein va preferred form of embodiment of the present invention is clearly shown.

In the drawings Fig. 1 is a view showing the method of end of the spider arm before being clinched p around the reinforcing hoop.

Fig. 3 is a plan view of the outer end of a spider arm before the reinforcing hoop is secured thereto.

Fig. 4 is a section through an improved extruding head for a conventional rubber extruding machine.

Fig. 5 is a detail ing head of Fig. 4.

Figs. 6 and 7 are face and sectional detail views respectively of a die member used in the eXtruding head of Fig. 4.

Fig. 8 is a sectional view illustrating the improved method of eXtruding a rubber casing upon a rubber core stock for making handwheel rims.

Fig. 9 is a plan view of a handwheel built according to this invention and adapted for use as an automobile steering wheel. The sectional portion illustrates how the outer rubber casing of higher grade or coloredrubber follows the corrugations of the rim without change in the substantially uniform thickness of said outer easing.

Fig. 10 isa sectional view of the handwheel of Fig. 9.

In the drawings similar reference characters refer to similar parts throughout the several views.

The dimensions of the wheel shown are such as to besuitable for an automobile steerin wheel.

In Fig. 1 numeral 10 designates the arms of the handwheel spider which may be of any desired design or construction. In the particular form chosen 'for illustration of of a part of theextrudthis invention the spider is cast of metal which is sufiiciently malleable to permit the lugs 11 and 12 on the outer end of each arm 10 to be clinched around the reinforcing hoop 13, as most clearly illust-rated in Fig. 2. These lugs 11 and 12 are referably staggered as clearly shown in Fig. 3 in order to avoid the necessity of providing a core in casting the same.v It is obvious from Figs. 2 and 3 that the spider may be made in a permanent mold or die-casting machine without the use of a core lying between the lugs 11 and 12. y

The reinforcing hoop 13 is preferably made from fg inch steel whe having its ends welded together, whereby a quite rigid and self-sustaining ring is formed which, nevertheless, yields sufficiently to absorb shocks without danger of breaking. This hoop 13 may be easily distorted sufficiently to place it between the lugs 11 and 12 on the spider arms after which the lugs are clinched over it, .as shown in full lines in Fig. 2.

A. length of unvulcanized rubber stock 15 having a continuous slit 16 cut therein to a substantial depth is now laid around the hoop 13 as clearly shown in Fig. 1. The hoop 13 is received within the slit 16 and the rubber pressed firmly around the hoop so that it adheres thereto and is thus held firmly in place in ring form so that the wheel unit may be readily handled, without danger of the rubber coming off, until it is placed in the vulcanizing mold. Preferably the rim stock 15 is provided at the bottom of the slit 16 with a longitudinal aperture 17 of the approximate section of the hoop 13. This aperture 17 facilitates the proper positioning of the rim stock upon the hoop 13 and permits the edges of the slit 16 to more easily come together, as will be readily obvious from viewing Fig. 1. The ends of the rim stock 15 are preferably cut at a bias, as shown, and the ends abutted and pressed firmly together so that a. perfect joint is made during vulcanization. The wheel unit is next placed in a suitable curing mold and the rubber vulcanized at a suitable temperature and for the required length of time. During vulcanization the edges of slit 16 are vulcanized together to form an integral structure and the rubber flows up tightly against the inserted ends of arms 10 and is vulcanized thereto.

It is of course obvious that the above described method of making the reinforced rubber rim can be used in cases where the s ider is not-first attached to the reinforcing ioop 13. In such cases, if desired, the slit 16 may be turned in other positions than on the inner periphery of the rim since there Would then be no spider arms to be inserted in said slit.

In Fig. 4 there is illustrated a method of forming the unyul'canized rim stock used. 1p

-the above mentioned method of rim manufacture. Numeral 30 designates an extruding head which is attached to the outlet of a conventional rubber extruding machine by means of the screw threads 31. Numeral 32 designates the rubber mix which is being squeezed by the extruding screw of the conventional extruding machine through the forming die 33 thus forming the rim stock 34 in continuous length. The relatively small longitudinal aperture 17 in the rim stock is formed 4during extrusion by the die core member 35 which is supported substantially at the center of die 33 by the spidershaped support 36 screw threaded into the head 30 as clearly shown in Fig. 4. The elevational view of the support 36 shown in Fig. 5 clearly shows the open spaces between the spider-arms 37 of support 36 through which the rubber mix passes as it is forced under high pressure from the extruding screw to the die 33. The die 33 is also provided with a relatively thin radially extending blade 40 which is rigidly fixed thereto (see Figs. 6 and 7). This blade 4() extends from the inner periphery of the forming die 33 into substantial contact with the core 4die 35. It is obvious that this blade 40 will make a continuous slit 16 in the rim stock 34 extending to the aperture 17 as the rim stock is extruded through the die 33 by the pressure of the extruding screw (not shown). Of course if it is desired to make the slit 16 by some other means after the extrusion operation the blade 40 is omitted from the die 33. Preferably a set of dies (corresponding to die 33) of the various shapes and sizes which may be desired for different wheel rims are provided, and with or Without a blade 40 as desired. It is an easy matter to replace the die 33 with the Idesired die simply by removing the retaining ring 41 from the die head by applying a large spanner wrench thereto at the recesses 42.

The rim stock 34 formed in thc extruding head 30 may be used directly for making a rim as shown in Fig. l, but preferably a low grade rubber mix with suitable wood or other fiber filling is extruded through head 30 and the extruded material covered with an outer casing of higher grade rubber. If desired this outer casing of rubber may be of calendered sheet cut to proper width aud length and rolled on the outside of suitable lengths of the extruded core stock extruded through the head 30. However in Fig. 8 there is illustrated a method of extruding the outer casing directly upon the core stock in continuous length. The extruding head 50 is attached to the outlet ot a conventional rubber extruding machine by means ofthe screw threads 51. Numeral 52 designates the rubber mix whichis to forni the outer casing 53 and which issqueezed by the extruding screw (not shown) through the forming die 54. The core stock 34 .is guided axially through the die 54 by means of the guide member 55 which is provided with a tapered end 56 terminating at the neck of die 54, as clearly illustrated in Fig. 8. A number of bolts 57 arran ed around theimember 56 and bearing tereagainst permit theadjustment of guide member 55 to accurate alignment with the die 54. The jacket 58 is provided for the circulation of steam or cooling water as desired to keep the rubber mix 52 at the proper temperature during extrusion for best results.

When an outer casing of rubber is laid over a core stock 34, eitlierby hand or by the extruding head shown in Fig. 8, the casing islater slit to register with the slit 16 in the core stock 34. Or, if desired, the core stock 34 may first be covered with the outercasing'and then the core and `casing be slit to the proper depth at one operation.

The rim stock 15 shown in Fig. 1 comprises a core stock of rubber and fiber mixture having an outer casing of higher grade rubber to give a hard well appearing outer surface to the finished rim.

The finished wheel is illustrated in Figs. 9 and 10. The unvulcanized rim of substantially uniform section, as shown in Fig. 1, is placed in a curing diehaving cavities thereinto form the rim corrugations 60 and 61 and the knurled portion 62 (see Fig. 9). A sufiicient amount of rubber blower, such for instance as ammonium carbonate, 1s compounded with the rubber of the rim, preferably only in the core stock, as to cause the rubber to swell during vulcanization and completely fill the mold. under high pres` sure, whereby the outer casing 53 is pressed within the die cavities with enormous pressure.y By this means the small projections of the knurled portion 62 are clear cut and well defined in the finished rim. `A proportion of one and one-half per vcent of a'mmonium carbonate in thel rubber mix has been lfound to give good results withy the` wheel shown in Fig. 9, but of c ourse the proper proportion for any particular design of wheel or composition of the rubbery mix may be easily determined in any given case by trial.

While the form of embodiment of the present invention as herein disclosed, constitutes a preferred form of embodiment of the present invention, it is to be understood that other forms might be adopted, all coming within the scope ofrthe claims which follow.

What is claimed is as follows 1. The method of manufacturing ay reinforced rubber hand-wheelrim comprising: forming a flexible length of unvulcanized rubber stock of substantially circular cross section fand having a longitudinal slit thereerally to said aperture, laying said stock upon a reinforcing self-sustaining hoop so that the hoop is received within said aperture, and vulcanizing the reinforced rubber ring thus formed in a mold whereby the edges of said slit are vulcanized together.

3. The method of manufacturing a reinforced rubber handwheel comprising: forming a flexible length of unvulcanized rubber stock having 'a longitudinal slit therein, laying said stock upon a preformed self-sustaining reinforcing ring having spider arms secured thereto so that the ring and the outer ends of the spider arms are received within said slit, and vulcanizing in a mold the rim of the wheel thus formed whereby 4the rubber is made to flow during vulcanization and completely close up against the inserted ends of the Spider arms.

4. The method of manufacturing a reinforced rubber handwheel comprising:

forming a flexible length of unvulcanized 1.0 rubber stock having a relatively small longitudinal aperture therein and a continuous slit extending laterally to said aperture, laying said stock upon a preformed reinforcing ring having spider arms secured theretoso that said rlng is received within said aperture and the outer ends of the spider arms within said slit, andl vulcanizing in a mold the rim of the wheel thus formed whereby the rubber is made to flow during vulcaniza- 7 stock axially through a second die of larger 12 dimension and simultaneously extruding through said second die a rubber casing upon said core stock, and then making a slit in the rubber casing in registration with the slit in the core stock.

`6. The method of manufacturing a handwheel rim having corrugations therein comprising: forming a flexible length of unvulcanized rubber core stock compounded with a suitable blowing agent and, of substantially 139 uniform section, coverin said core stock with an unvuleanized ru ber casing of a different grade or color from that of the core stock, forming a rim from said covered stock, placing said rim in a mould having the desired corrugation cavities therein, and then vulcanizing the rim under high internal pressure developed by said blowing agent causing the rubber to completely fill the corrugation cavities in the mold. 10

In testimony whereof I hereunto afix my signature.

HARVEY D. GEYER.